ipld-eth-server/vendor/github.com/dave/jennifer/jen/generated.go

// This file is generated - do not edit.

package jen

// Parens renders a single item in parenthesis. Use for type conversion or to specify evaluation order.
func Parens(item Code) *Statement {
	return newStatement().Parens(item)
}

// Parens renders a single item in parenthesis. Use for type conversion or to specify evaluation order.
func (g *Group) Parens(item Code) *Statement {
	s := Parens(item)
	g.items = append(g.items, s)
	return s
}

// Parens renders a single item in parenthesis. Use for type conversion or to specify evaluation order.
func (s *Statement) Parens(item Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{item},
		multi:     false,
		name:      "parens",
		open:      "(",
		separator: "",
	}
	*s = append(*s, g)
	return s
}

// List renders a comma separated list. Use for multiple return functions.
func List(items ...Code) *Statement {
	return newStatement().List(items...)
}

// List renders a comma separated list. Use for multiple return functions.
func (g *Group) List(items ...Code) *Statement {
	s := List(items...)
	g.items = append(g.items, s)
	return s
}

// List renders a comma separated list. Use for multiple return functions.
func (s *Statement) List(items ...Code) *Statement {
	g := &Group{
		close:     "",
		items:     items,
		multi:     false,
		name:      "list",
		open:      "",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// ListFunc renders a comma separated list. Use for multiple return functions.
func ListFunc(f func(*Group)) *Statement {
	return newStatement().ListFunc(f)
}

// ListFunc renders a comma separated list. Use for multiple return functions.
func (g *Group) ListFunc(f func(*Group)) *Statement {
	s := ListFunc(f)
	g.items = append(g.items, s)
	return s
}

// ListFunc renders a comma separated list. Use for multiple return functions.
func (s *Statement) ListFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "",
		multi:     false,
		name:      "list",
		open:      "",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Values renders a comma separated list enclosed by curly braces. Use for slice or composite literals.
func Values(values ...Code) *Statement {
	return newStatement().Values(values...)
}

// Values renders a comma separated list enclosed by curly braces. Use for slice or composite literals.
func (g *Group) Values(values ...Code) *Statement {
	s := Values(values...)
	g.items = append(g.items, s)
	return s
}

// Values renders a comma separated list enclosed by curly braces. Use for slice or composite literals.
func (s *Statement) Values(values ...Code) *Statement {
	g := &Group{
		close:     "}",
		items:     values,
		multi:     false,
		name:      "values",
		open:      "{",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// ValuesFunc renders a comma separated list enclosed by curly braces. Use for slice or composite literals.
func ValuesFunc(f func(*Group)) *Statement {
	return newStatement().ValuesFunc(f)
}

// ValuesFunc renders a comma separated list enclosed by curly braces. Use for slice or composite literals.
func (g *Group) ValuesFunc(f func(*Group)) *Statement {
	s := ValuesFunc(f)
	g.items = append(g.items, s)
	return s
}

// ValuesFunc renders a comma separated list enclosed by curly braces. Use for slice or composite literals.
func (s *Statement) ValuesFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "}",
		multi:     false,
		name:      "values",
		open:      "{",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Index renders a colon separated list enclosed by square brackets. Use for array / slice indexes and definitions.
func Index(items ...Code) *Statement {
	return newStatement().Index(items...)
}

// Index renders a colon separated list enclosed by square brackets. Use for array / slice indexes and definitions.
func (g *Group) Index(items ...Code) *Statement {
	s := Index(items...)
	g.items = append(g.items, s)
	return s
}

// Index renders a colon separated list enclosed by square brackets. Use for array / slice indexes and definitions.
func (s *Statement) Index(items ...Code) *Statement {
	g := &Group{
		close:     "]",
		items:     items,
		multi:     false,
		name:      "index",
		open:      "[",
		separator: ":",
	}
	*s = append(*s, g)
	return s
}

// IndexFunc renders a colon separated list enclosed by square brackets. Use for array / slice indexes and definitions.
func IndexFunc(f func(*Group)) *Statement {
	return newStatement().IndexFunc(f)
}

// IndexFunc renders a colon separated list enclosed by square brackets. Use for array / slice indexes and definitions.
func (g *Group) IndexFunc(f func(*Group)) *Statement {
	s := IndexFunc(f)
	g.items = append(g.items, s)
	return s
}

// IndexFunc renders a colon separated list enclosed by square brackets. Use for array / slice indexes and definitions.
func (s *Statement) IndexFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "]",
		multi:     false,
		name:      "index",
		open:      "[",
		separator: ":",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Block renders a statement list enclosed by curly braces. Use for code blocks. A special case applies when used directly after Case or Default, where the braces are omitted. This allows use in switch and select statements.
func Block(statements ...Code) *Statement {
	return newStatement().Block(statements...)
}

// Block renders a statement list enclosed by curly braces. Use for code blocks. A special case applies when used directly after Case or Default, where the braces are omitted. This allows use in switch and select statements.
func (g *Group) Block(statements ...Code) *Statement {
	s := Block(statements...)
	g.items = append(g.items, s)
	return s
}

// Block renders a statement list enclosed by curly braces. Use for code blocks. A special case applies when used directly after Case or Default, where the braces are omitted. This allows use in switch and select statements.
func (s *Statement) Block(statements ...Code) *Statement {
	g := &Group{
		close:     "}",
		items:     statements,
		multi:     true,
		name:      "block",
		open:      "{",
		separator: "",
	}
	*s = append(*s, g)
	return s
}

// BlockFunc renders a statement list enclosed by curly braces. Use for code blocks. A special case applies when used directly after Case or Default, where the braces are omitted. This allows use in switch and select statements.
func BlockFunc(f func(*Group)) *Statement {
	return newStatement().BlockFunc(f)
}

// BlockFunc renders a statement list enclosed by curly braces. Use for code blocks. A special case applies when used directly after Case or Default, where the braces are omitted. This allows use in switch and select statements.
func (g *Group) BlockFunc(f func(*Group)) *Statement {
	s := BlockFunc(f)
	g.items = append(g.items, s)
	return s
}

// BlockFunc renders a statement list enclosed by curly braces. Use for code blocks. A special case applies when used directly after Case or Default, where the braces are omitted. This allows use in switch and select statements.
func (s *Statement) BlockFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "}",
		multi:     true,
		name:      "block",
		open:      "{",
		separator: "",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Defs renders a statement list enclosed in parenthesis. Use for definition lists.
func Defs(definitions ...Code) *Statement {
	return newStatement().Defs(definitions...)
}

// Defs renders a statement list enclosed in parenthesis. Use for definition lists.
func (g *Group) Defs(definitions ...Code) *Statement {
	s := Defs(definitions...)
	g.items = append(g.items, s)
	return s
}

// Defs renders a statement list enclosed in parenthesis. Use for definition lists.
func (s *Statement) Defs(definitions ...Code) *Statement {
	g := &Group{
		close:     ")",
		items:     definitions,
		multi:     true,
		name:      "defs",
		open:      "(",
		separator: "",
	}
	*s = append(*s, g)
	return s
}

// DefsFunc renders a statement list enclosed in parenthesis. Use for definition lists.
func DefsFunc(f func(*Group)) *Statement {
	return newStatement().DefsFunc(f)
}

// DefsFunc renders a statement list enclosed in parenthesis. Use for definition lists.
func (g *Group) DefsFunc(f func(*Group)) *Statement {
	s := DefsFunc(f)
	g.items = append(g.items, s)
	return s
}

// DefsFunc renders a statement list enclosed in parenthesis. Use for definition lists.
func (s *Statement) DefsFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     ")",
		multi:     true,
		name:      "defs",
		open:      "(",
		separator: "",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Call renders a comma separated list enclosed by parenthesis. Use for function calls.
func Call(params ...Code) *Statement {
	return newStatement().Call(params...)
}

// Call renders a comma separated list enclosed by parenthesis. Use for function calls.
func (g *Group) Call(params ...Code) *Statement {
	s := Call(params...)
	g.items = append(g.items, s)
	return s
}

// Call renders a comma separated list enclosed by parenthesis. Use for function calls.
func (s *Statement) Call(params ...Code) *Statement {
	g := &Group{
		close:     ")",
		items:     params,
		multi:     false,
		name:      "call",
		open:      "(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// CallFunc renders a comma separated list enclosed by parenthesis. Use for function calls.
func CallFunc(f func(*Group)) *Statement {
	return newStatement().CallFunc(f)
}

// CallFunc renders a comma separated list enclosed by parenthesis. Use for function calls.
func (g *Group) CallFunc(f func(*Group)) *Statement {
	s := CallFunc(f)
	g.items = append(g.items, s)
	return s
}

// CallFunc renders a comma separated list enclosed by parenthesis. Use for function calls.
func (s *Statement) CallFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     ")",
		multi:     false,
		name:      "call",
		open:      "(",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Params renders a comma separated list enclosed by parenthesis. Use for function parameters and method receivers.
func Params(params ...Code) *Statement {
	return newStatement().Params(params...)
}

// Params renders a comma separated list enclosed by parenthesis. Use for function parameters and method receivers.
func (g *Group) Params(params ...Code) *Statement {
	s := Params(params...)
	g.items = append(g.items, s)
	return s
}

// Params renders a comma separated list enclosed by parenthesis. Use for function parameters and method receivers.
func (s *Statement) Params(params ...Code) *Statement {
	g := &Group{
		close:     ")",
		items:     params,
		multi:     false,
		name:      "params",
		open:      "(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// ParamsFunc renders a comma separated list enclosed by parenthesis. Use for function parameters and method receivers.
func ParamsFunc(f func(*Group)) *Statement {
	return newStatement().ParamsFunc(f)
}

// ParamsFunc renders a comma separated list enclosed by parenthesis. Use for function parameters and method receivers.
func (g *Group) ParamsFunc(f func(*Group)) *Statement {
	s := ParamsFunc(f)
	g.items = append(g.items, s)
	return s
}

// ParamsFunc renders a comma separated list enclosed by parenthesis. Use for function parameters and method receivers.
func (s *Statement) ParamsFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     ")",
		multi:     false,
		name:      "params",
		open:      "(",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Assert renders a period followed by a single item enclosed by parenthesis. Use for type assertions.
func Assert(typ Code) *Statement {
	return newStatement().Assert(typ)
}

// Assert renders a period followed by a single item enclosed by parenthesis. Use for type assertions.
func (g *Group) Assert(typ Code) *Statement {
	s := Assert(typ)
	g.items = append(g.items, s)
	return s
}

// Assert renders a period followed by a single item enclosed by parenthesis. Use for type assertions.
func (s *Statement) Assert(typ Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{typ},
		multi:     false,
		name:      "assert",
		open:      ".(",
		separator: "",
	}
	*s = append(*s, g)
	return s
}

// Map renders the keyword followed by a single item enclosed by square brackets. Use for map definitions.
func Map(typ Code) *Statement {
	return newStatement().Map(typ)
}

// Map renders the keyword followed by a single item enclosed by square brackets. Use for map definitions.
func (g *Group) Map(typ Code) *Statement {
	s := Map(typ)
	g.items = append(g.items, s)
	return s
}

// Map renders the keyword followed by a single item enclosed by square brackets. Use for map definitions.
func (s *Statement) Map(typ Code) *Statement {
	g := &Group{
		close:     "]",
		items:     []Code{typ},
		multi:     false,
		name:      "map",
		open:      "map[",
		separator: "",
	}
	*s = append(*s, g)
	return s
}

// If renders the keyword followed by a semicolon separated list.
func If(conditions ...Code) *Statement {
	return newStatement().If(conditions...)
}

// If renders the keyword followed by a semicolon separated list.
func (g *Group) If(conditions ...Code) *Statement {
	s := If(conditions...)
	g.items = append(g.items, s)
	return s
}

// If renders the keyword followed by a semicolon separated list.
func (s *Statement) If(conditions ...Code) *Statement {
	g := &Group{
		close:     "",
		items:     conditions,
		multi:     false,
		name:      "if",
		open:      "if ",
		separator: ";",
	}
	*s = append(*s, g)
	return s
}

// IfFunc renders the keyword followed by a semicolon separated list.
func IfFunc(f func(*Group)) *Statement {
	return newStatement().IfFunc(f)
}

// IfFunc renders the keyword followed by a semicolon separated list.
func (g *Group) IfFunc(f func(*Group)) *Statement {
	s := IfFunc(f)
	g.items = append(g.items, s)
	return s
}

// IfFunc renders the keyword followed by a semicolon separated list.
func (s *Statement) IfFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "",
		multi:     false,
		name:      "if",
		open:      "if ",
		separator: ";",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Return renders the keyword followed by a comma separated list.
func Return(results ...Code) *Statement {
	return newStatement().Return(results...)
}

// Return renders the keyword followed by a comma separated list.
func (g *Group) Return(results ...Code) *Statement {
	s := Return(results...)
	g.items = append(g.items, s)
	return s
}

// Return renders the keyword followed by a comma separated list.
func (s *Statement) Return(results ...Code) *Statement {
	g := &Group{
		close:     "",
		items:     results,
		multi:     false,
		name:      "return",
		open:      "return ",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// ReturnFunc renders the keyword followed by a comma separated list.
func ReturnFunc(f func(*Group)) *Statement {
	return newStatement().ReturnFunc(f)
}

// ReturnFunc renders the keyword followed by a comma separated list.
func (g *Group) ReturnFunc(f func(*Group)) *Statement {
	s := ReturnFunc(f)
	g.items = append(g.items, s)
	return s
}

// ReturnFunc renders the keyword followed by a comma separated list.
func (s *Statement) ReturnFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "",
		multi:     false,
		name:      "return",
		open:      "return ",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// For renders the keyword followed by a semicolon separated list.
func For(conditions ...Code) *Statement {
	return newStatement().For(conditions...)
}

// For renders the keyword followed by a semicolon separated list.
func (g *Group) For(conditions ...Code) *Statement {
	s := For(conditions...)
	g.items = append(g.items, s)
	return s
}

// For renders the keyword followed by a semicolon separated list.
func (s *Statement) For(conditions ...Code) *Statement {
	g := &Group{
		close:     "",
		items:     conditions,
		multi:     false,
		name:      "for",
		open:      "for ",
		separator: ";",
	}
	*s = append(*s, g)
	return s
}

// ForFunc renders the keyword followed by a semicolon separated list.
func ForFunc(f func(*Group)) *Statement {
	return newStatement().ForFunc(f)
}

// ForFunc renders the keyword followed by a semicolon separated list.
func (g *Group) ForFunc(f func(*Group)) *Statement {
	s := ForFunc(f)
	g.items = append(g.items, s)
	return s
}

// ForFunc renders the keyword followed by a semicolon separated list.
func (s *Statement) ForFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "",
		multi:     false,
		name:      "for",
		open:      "for ",
		separator: ";",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Switch renders the keyword followed by a semicolon separated list.
func Switch(conditions ...Code) *Statement {
	return newStatement().Switch(conditions...)
}

// Switch renders the keyword followed by a semicolon separated list.
func (g *Group) Switch(conditions ...Code) *Statement {
	s := Switch(conditions...)
	g.items = append(g.items, s)
	return s
}

// Switch renders the keyword followed by a semicolon separated list.
func (s *Statement) Switch(conditions ...Code) *Statement {
	g := &Group{
		close:     "",
		items:     conditions,
		multi:     false,
		name:      "switch",
		open:      "switch ",
		separator: ";",
	}
	*s = append(*s, g)
	return s
}

// SwitchFunc renders the keyword followed by a semicolon separated list.
func SwitchFunc(f func(*Group)) *Statement {
	return newStatement().SwitchFunc(f)
}

// SwitchFunc renders the keyword followed by a semicolon separated list.
func (g *Group) SwitchFunc(f func(*Group)) *Statement {
	s := SwitchFunc(f)
	g.items = append(g.items, s)
	return s
}

// SwitchFunc renders the keyword followed by a semicolon separated list.
func (s *Statement) SwitchFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "",
		multi:     false,
		name:      "switch",
		open:      "switch ",
		separator: ";",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Interface renders the keyword followed by a method list enclosed by curly braces.
func Interface(methods ...Code) *Statement {
	return newStatement().Interface(methods...)
}

// Interface renders the keyword followed by a method list enclosed by curly braces.
func (g *Group) Interface(methods ...Code) *Statement {
	s := Interface(methods...)
	g.items = append(g.items, s)
	return s
}

// Interface renders the keyword followed by a method list enclosed by curly braces.
func (s *Statement) Interface(methods ...Code) *Statement {
	g := &Group{
		close:     "}",
		items:     methods,
		multi:     true,
		name:      "interface",
		open:      "interface{",
		separator: "",
	}
	*s = append(*s, g)
	return s
}

// InterfaceFunc renders the keyword followed by a method list enclosed by curly braces.
func InterfaceFunc(f func(*Group)) *Statement {
	return newStatement().InterfaceFunc(f)
}

// InterfaceFunc renders the keyword followed by a method list enclosed by curly braces.
func (g *Group) InterfaceFunc(f func(*Group)) *Statement {
	s := InterfaceFunc(f)
	g.items = append(g.items, s)
	return s
}

// InterfaceFunc renders the keyword followed by a method list enclosed by curly braces.
func (s *Statement) InterfaceFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "}",
		multi:     true,
		name:      "interface",
		open:      "interface{",
		separator: "",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Struct renders the keyword followed by a field list enclosed by curly braces.
func Struct(fields ...Code) *Statement {
	return newStatement().Struct(fields...)
}

// Struct renders the keyword followed by a field list enclosed by curly braces.
func (g *Group) Struct(fields ...Code) *Statement {
	s := Struct(fields...)
	g.items = append(g.items, s)
	return s
}

// Struct renders the keyword followed by a field list enclosed by curly braces.
func (s *Statement) Struct(fields ...Code) *Statement {
	g := &Group{
		close:     "}",
		items:     fields,
		multi:     true,
		name:      "struct",
		open:      "struct{",
		separator: "",
	}
	*s = append(*s, g)
	return s
}

// StructFunc renders the keyword followed by a field list enclosed by curly braces.
func StructFunc(f func(*Group)) *Statement {
	return newStatement().StructFunc(f)
}

// StructFunc renders the keyword followed by a field list enclosed by curly braces.
func (g *Group) StructFunc(f func(*Group)) *Statement {
	s := StructFunc(f)
	g.items = append(g.items, s)
	return s
}

// StructFunc renders the keyword followed by a field list enclosed by curly braces.
func (s *Statement) StructFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     "}",
		multi:     true,
		name:      "struct",
		open:      "struct{",
		separator: "",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Case renders the keyword followed by a comma separated list.
func Case(cases ...Code) *Statement {
	return newStatement().Case(cases...)
}

// Case renders the keyword followed by a comma separated list.
func (g *Group) Case(cases ...Code) *Statement {
	s := Case(cases...)
	g.items = append(g.items, s)
	return s
}

// Case renders the keyword followed by a comma separated list.
func (s *Statement) Case(cases ...Code) *Statement {
	g := &Group{
		close:     ":",
		items:     cases,
		multi:     false,
		name:      "case",
		open:      "case ",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// CaseFunc renders the keyword followed by a comma separated list.
func CaseFunc(f func(*Group)) *Statement {
	return newStatement().CaseFunc(f)
}

// CaseFunc renders the keyword followed by a comma separated list.
func (g *Group) CaseFunc(f func(*Group)) *Statement {
	s := CaseFunc(f)
	g.items = append(g.items, s)
	return s
}

// CaseFunc renders the keyword followed by a comma separated list.
func (s *Statement) CaseFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     ":",
		multi:     false,
		name:      "case",
		open:      "case ",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Append renders the append built-in function.
func Append(args ...Code) *Statement {
	return newStatement().Append(args...)
}

// Append renders the append built-in function.
func (g *Group) Append(args ...Code) *Statement {
	s := Append(args...)
	g.items = append(g.items, s)
	return s
}

// Append renders the append built-in function.
func (s *Statement) Append(args ...Code) *Statement {
	g := &Group{
		close:     ")",
		items:     args,
		multi:     false,
		name:      "append",
		open:      "append(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// AppendFunc renders the append built-in function.
func AppendFunc(f func(*Group)) *Statement {
	return newStatement().AppendFunc(f)
}

// AppendFunc renders the append built-in function.
func (g *Group) AppendFunc(f func(*Group)) *Statement {
	s := AppendFunc(f)
	g.items = append(g.items, s)
	return s
}

// AppendFunc renders the append built-in function.
func (s *Statement) AppendFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     ")",
		multi:     false,
		name:      "append",
		open:      "append(",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Cap renders the cap built-in function.
func Cap(v Code) *Statement {
	return newStatement().Cap(v)
}

// Cap renders the cap built-in function.
func (g *Group) Cap(v Code) *Statement {
	s := Cap(v)
	g.items = append(g.items, s)
	return s
}

// Cap renders the cap built-in function.
func (s *Statement) Cap(v Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{v},
		multi:     false,
		name:      "cap",
		open:      "cap(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Close renders the close built-in function.
func Close(c Code) *Statement {
	return newStatement().Close(c)
}

// Close renders the close built-in function.
func (g *Group) Close(c Code) *Statement {
	s := Close(c)
	g.items = append(g.items, s)
	return s
}

// Close renders the close built-in function.
func (s *Statement) Close(c Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{c},
		multi:     false,
		name:      "close",
		open:      "close(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Complex renders the complex built-in function.
func Complex(r Code, i Code) *Statement {
	return newStatement().Complex(r, i)
}

// Complex renders the complex built-in function.
func (g *Group) Complex(r Code, i Code) *Statement {
	s := Complex(r, i)
	g.items = append(g.items, s)
	return s
}

// Complex renders the complex built-in function.
func (s *Statement) Complex(r Code, i Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{r, i},
		multi:     false,
		name:      "complex",
		open:      "complex(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Copy renders the copy built-in function.
func Copy(dst Code, src Code) *Statement {
	return newStatement().Copy(dst, src)
}

// Copy renders the copy built-in function.
func (g *Group) Copy(dst Code, src Code) *Statement {
	s := Copy(dst, src)
	g.items = append(g.items, s)
	return s
}

// Copy renders the copy built-in function.
func (s *Statement) Copy(dst Code, src Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{dst, src},
		multi:     false,
		name:      "copy",
		open:      "copy(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Delete renders the delete built-in function.
func Delete(m Code, key Code) *Statement {
	return newStatement().Delete(m, key)
}

// Delete renders the delete built-in function.
func (g *Group) Delete(m Code, key Code) *Statement {
	s := Delete(m, key)
	g.items = append(g.items, s)
	return s
}

// Delete renders the delete built-in function.
func (s *Statement) Delete(m Code, key Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{m, key},
		multi:     false,
		name:      "delete",
		open:      "delete(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Imag renders the imag built-in function.
func Imag(c Code) *Statement {
	return newStatement().Imag(c)
}

// Imag renders the imag built-in function.
func (g *Group) Imag(c Code) *Statement {
	s := Imag(c)
	g.items = append(g.items, s)
	return s
}

// Imag renders the imag built-in function.
func (s *Statement) Imag(c Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{c},
		multi:     false,
		name:      "imag",
		open:      "imag(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Len renders the len built-in function.
func Len(v Code) *Statement {
	return newStatement().Len(v)
}

// Len renders the len built-in function.
func (g *Group) Len(v Code) *Statement {
	s := Len(v)
	g.items = append(g.items, s)
	return s
}

// Len renders the len built-in function.
func (s *Statement) Len(v Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{v},
		multi:     false,
		name:      "len",
		open:      "len(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Make renders the make built-in function. The final parameter of the make function is optional, so it is represented by a variadic parameter list.
func Make(args ...Code) *Statement {
	return newStatement().Make(args...)
}

// Make renders the make built-in function. The final parameter of the make function is optional, so it is represented by a variadic parameter list.
func (g *Group) Make(args ...Code) *Statement {
	s := Make(args...)
	g.items = append(g.items, s)
	return s
}

// Make renders the make built-in function. The final parameter of the make function is optional, so it is represented by a variadic parameter list.
func (s *Statement) Make(args ...Code) *Statement {
	g := &Group{
		close:     ")",
		items:     args,
		multi:     false,
		name:      "make",
		open:      "make(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// New renders the new built-in function.
func New(typ Code) *Statement {
	return newStatement().New(typ)
}

// New renders the new built-in function.
func (g *Group) New(typ Code) *Statement {
	s := New(typ)
	g.items = append(g.items, s)
	return s
}

// New renders the new built-in function.
func (s *Statement) New(typ Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{typ},
		multi:     false,
		name:      "new",
		open:      "new(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Panic renders the panic built-in function.
func Panic(v Code) *Statement {
	return newStatement().Panic(v)
}

// Panic renders the panic built-in function.
func (g *Group) Panic(v Code) *Statement {
	s := Panic(v)
	g.items = append(g.items, s)
	return s
}

// Panic renders the panic built-in function.
func (s *Statement) Panic(v Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{v},
		multi:     false,
		name:      "panic",
		open:      "panic(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Print renders the print built-in function.
func Print(args ...Code) *Statement {
	return newStatement().Print(args...)
}

// Print renders the print built-in function.
func (g *Group) Print(args ...Code) *Statement {
	s := Print(args...)
	g.items = append(g.items, s)
	return s
}

// Print renders the print built-in function.
func (s *Statement) Print(args ...Code) *Statement {
	g := &Group{
		close:     ")",
		items:     args,
		multi:     false,
		name:      "print",
		open:      "print(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// PrintFunc renders the print built-in function.
func PrintFunc(f func(*Group)) *Statement {
	return newStatement().PrintFunc(f)
}

// PrintFunc renders the print built-in function.
func (g *Group) PrintFunc(f func(*Group)) *Statement {
	s := PrintFunc(f)
	g.items = append(g.items, s)
	return s
}

// PrintFunc renders the print built-in function.
func (s *Statement) PrintFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     ")",
		multi:     false,
		name:      "print",
		open:      "print(",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Println renders the println built-in function.
func Println(args ...Code) *Statement {
	return newStatement().Println(args...)
}

// Println renders the println built-in function.
func (g *Group) Println(args ...Code) *Statement {
	s := Println(args...)
	g.items = append(g.items, s)
	return s
}

// Println renders the println built-in function.
func (s *Statement) Println(args ...Code) *Statement {
	g := &Group{
		close:     ")",
		items:     args,
		multi:     false,
		name:      "println",
		open:      "println(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// PrintlnFunc renders the println built-in function.
func PrintlnFunc(f func(*Group)) *Statement {
	return newStatement().PrintlnFunc(f)
}

// PrintlnFunc renders the println built-in function.
func (g *Group) PrintlnFunc(f func(*Group)) *Statement {
	s := PrintlnFunc(f)
	g.items = append(g.items, s)
	return s
}

// PrintlnFunc renders the println built-in function.
func (s *Statement) PrintlnFunc(f func(*Group)) *Statement {
	g := &Group{
		close:     ")",
		multi:     false,
		name:      "println",
		open:      "println(",
		separator: ",",
	}
	f(g)
	*s = append(*s, g)
	return s
}

// Real renders the real built-in function.
func Real(c Code) *Statement {
	return newStatement().Real(c)
}

// Real renders the real built-in function.
func (g *Group) Real(c Code) *Statement {
	s := Real(c)
	g.items = append(g.items, s)
	return s
}

// Real renders the real built-in function.
func (s *Statement) Real(c Code) *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{c},
		multi:     false,
		name:      "real",
		open:      "real(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Recover renders the recover built-in function.
func Recover() *Statement {
	return newStatement().Recover()
}

// Recover renders the recover built-in function.
func (g *Group) Recover() *Statement {
	s := Recover()
	g.items = append(g.items, s)
	return s
}

// Recover renders the recover built-in function.
func (s *Statement) Recover() *Statement {
	g := &Group{
		close:     ")",
		items:     []Code{},
		multi:     false,
		name:      "recover",
		open:      "recover(",
		separator: ",",
	}
	*s = append(*s, g)
	return s
}

// Bool renders the bool identifier.
func Bool() *Statement {
	return newStatement().Bool()
}

// Bool renders the bool identifier.
func (g *Group) Bool() *Statement {
	s := Bool()
	g.items = append(g.items, s)
	return s
}

// Bool renders the bool identifier.
func (s *Statement) Bool() *Statement {
	t := token{
		content: "bool",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Byte renders the byte identifier.
func Byte() *Statement {
	// notest
	return newStatement().Byte()
}

// Byte renders the byte identifier.
func (g *Group) Byte() *Statement {
	// notest
	s := Byte()
	g.items = append(g.items, s)
	return s
}

// Byte renders the byte identifier.
func (s *Statement) Byte() *Statement {
	// notest
	t := token{
		content: "byte",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Complex64 renders the complex64 identifier.
func Complex64() *Statement {
	// notest
	return newStatement().Complex64()
}

// Complex64 renders the complex64 identifier.
func (g *Group) Complex64() *Statement {
	// notest
	s := Complex64()
	g.items = append(g.items, s)
	return s
}

// Complex64 renders the complex64 identifier.
func (s *Statement) Complex64() *Statement {
	// notest
	t := token{
		content: "complex64",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Complex128 renders the complex128 identifier.
func Complex128() *Statement {
	// notest
	return newStatement().Complex128()
}

// Complex128 renders the complex128 identifier.
func (g *Group) Complex128() *Statement {
	// notest
	s := Complex128()
	g.items = append(g.items, s)
	return s
}

// Complex128 renders the complex128 identifier.
func (s *Statement) Complex128() *Statement {
	// notest
	t := token{
		content: "complex128",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Error renders the error identifier.
func Error() *Statement {
	// notest
	return newStatement().Error()
}

// Error renders the error identifier.
func (g *Group) Error() *Statement {
	// notest
	s := Error()
	g.items = append(g.items, s)
	return s
}

// Error renders the error identifier.
func (s *Statement) Error() *Statement {
	// notest
	t := token{
		content: "error",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Float32 renders the float32 identifier.
func Float32() *Statement {
	// notest
	return newStatement().Float32()
}

// Float32 renders the float32 identifier.
func (g *Group) Float32() *Statement {
	// notest
	s := Float32()
	g.items = append(g.items, s)
	return s
}

// Float32 renders the float32 identifier.
func (s *Statement) Float32() *Statement {
	// notest
	t := token{
		content: "float32",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Float64 renders the float64 identifier.
func Float64() *Statement {
	// notest
	return newStatement().Float64()
}

// Float64 renders the float64 identifier.
func (g *Group) Float64() *Statement {
	// notest
	s := Float64()
	g.items = append(g.items, s)
	return s
}

// Float64 renders the float64 identifier.
func (s *Statement) Float64() *Statement {
	// notest
	t := token{
		content: "float64",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Int renders the int identifier.
func Int() *Statement {
	// notest
	return newStatement().Int()
}

// Int renders the int identifier.
func (g *Group) Int() *Statement {
	// notest
	s := Int()
	g.items = append(g.items, s)
	return s
}

// Int renders the int identifier.
func (s *Statement) Int() *Statement {
	// notest
	t := token{
		content: "int",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Int8 renders the int8 identifier.
func Int8() *Statement {
	// notest
	return newStatement().Int8()
}

// Int8 renders the int8 identifier.
func (g *Group) Int8() *Statement {
	// notest
	s := Int8()
	g.items = append(g.items, s)
	return s
}

// Int8 renders the int8 identifier.
func (s *Statement) Int8() *Statement {
	// notest
	t := token{
		content: "int8",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Int16 renders the int16 identifier.
func Int16() *Statement {
	// notest
	return newStatement().Int16()
}

// Int16 renders the int16 identifier.
func (g *Group) Int16() *Statement {
	// notest
	s := Int16()
	g.items = append(g.items, s)
	return s
}

// Int16 renders the int16 identifier.
func (s *Statement) Int16() *Statement {
	// notest
	t := token{
		content: "int16",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Int32 renders the int32 identifier.
func Int32() *Statement {
	// notest
	return newStatement().Int32()
}

// Int32 renders the int32 identifier.
func (g *Group) Int32() *Statement {
	// notest
	s := Int32()
	g.items = append(g.items, s)
	return s
}

// Int32 renders the int32 identifier.
func (s *Statement) Int32() *Statement {
	// notest
	t := token{
		content: "int32",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Int64 renders the int64 identifier.
func Int64() *Statement {
	// notest
	return newStatement().Int64()
}

// Int64 renders the int64 identifier.
func (g *Group) Int64() *Statement {
	// notest
	s := Int64()
	g.items = append(g.items, s)
	return s
}

// Int64 renders the int64 identifier.
func (s *Statement) Int64() *Statement {
	// notest
	t := token{
		content: "int64",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Rune renders the rune identifier.
func Rune() *Statement {
	// notest
	return newStatement().Rune()
}

// Rune renders the rune identifier.
func (g *Group) Rune() *Statement {
	// notest
	s := Rune()
	g.items = append(g.items, s)
	return s
}

// Rune renders the rune identifier.
func (s *Statement) Rune() *Statement {
	// notest
	t := token{
		content: "rune",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// String renders the string identifier.
func String() *Statement {
	// notest
	return newStatement().String()
}

// String renders the string identifier.
func (g *Group) String() *Statement {
	// notest
	s := String()
	g.items = append(g.items, s)
	return s
}

// String renders the string identifier.
func (s *Statement) String() *Statement {
	// notest
	t := token{
		content: "string",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Uint renders the uint identifier.
func Uint() *Statement {
	// notest
	return newStatement().Uint()
}

// Uint renders the uint identifier.
func (g *Group) Uint() *Statement {
	// notest
	s := Uint()
	g.items = append(g.items, s)
	return s
}

// Uint renders the uint identifier.
func (s *Statement) Uint() *Statement {
	// notest
	t := token{
		content: "uint",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Uint8 renders the uint8 identifier.
func Uint8() *Statement {
	// notest
	return newStatement().Uint8()
}

// Uint8 renders the uint8 identifier.
func (g *Group) Uint8() *Statement {
	// notest
	s := Uint8()
	g.items = append(g.items, s)
	return s
}

// Uint8 renders the uint8 identifier.
func (s *Statement) Uint8() *Statement {
	// notest
	t := token{
		content: "uint8",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Uint16 renders the uint16 identifier.
func Uint16() *Statement {
	// notest
	return newStatement().Uint16()
}

// Uint16 renders the uint16 identifier.
func (g *Group) Uint16() *Statement {
	// notest
	s := Uint16()
	g.items = append(g.items, s)
	return s
}

// Uint16 renders the uint16 identifier.
func (s *Statement) Uint16() *Statement {
	// notest
	t := token{
		content: "uint16",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Uint32 renders the uint32 identifier.
func Uint32() *Statement {
	// notest
	return newStatement().Uint32()
}

// Uint32 renders the uint32 identifier.
func (g *Group) Uint32() *Statement {
	// notest
	s := Uint32()
	g.items = append(g.items, s)
	return s
}

// Uint32 renders the uint32 identifier.
func (s *Statement) Uint32() *Statement {
	// notest
	t := token{
		content: "uint32",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Uint64 renders the uint64 identifier.
func Uint64() *Statement {
	// notest
	return newStatement().Uint64()
}

// Uint64 renders the uint64 identifier.
func (g *Group) Uint64() *Statement {
	// notest
	s := Uint64()
	g.items = append(g.items, s)
	return s
}

// Uint64 renders the uint64 identifier.
func (s *Statement) Uint64() *Statement {
	// notest
	t := token{
		content: "uint64",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Uintptr renders the uintptr identifier.
func Uintptr() *Statement {
	// notest
	return newStatement().Uintptr()
}

// Uintptr renders the uintptr identifier.
func (g *Group) Uintptr() *Statement {
	// notest
	s := Uintptr()
	g.items = append(g.items, s)
	return s
}

// Uintptr renders the uintptr identifier.
func (s *Statement) Uintptr() *Statement {
	// notest
	t := token{
		content: "uintptr",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// True renders the true identifier.
func True() *Statement {
	// notest
	return newStatement().True()
}

// True renders the true identifier.
func (g *Group) True() *Statement {
	// notest
	s := True()
	g.items = append(g.items, s)
	return s
}

// True renders the true identifier.
func (s *Statement) True() *Statement {
	// notest
	t := token{
		content: "true",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// False renders the false identifier.
func False() *Statement {
	// notest
	return newStatement().False()
}

// False renders the false identifier.
func (g *Group) False() *Statement {
	// notest
	s := False()
	g.items = append(g.items, s)
	return s
}

// False renders the false identifier.
func (s *Statement) False() *Statement {
	// notest
	t := token{
		content: "false",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Iota renders the iota identifier.
func Iota() *Statement {
	// notest
	return newStatement().Iota()
}

// Iota renders the iota identifier.
func (g *Group) Iota() *Statement {
	// notest
	s := Iota()
	g.items = append(g.items, s)
	return s
}

// Iota renders the iota identifier.
func (s *Statement) Iota() *Statement {
	// notest
	t := token{
		content: "iota",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Nil renders the nil identifier.
func Nil() *Statement {
	// notest
	return newStatement().Nil()
}

// Nil renders the nil identifier.
func (g *Group) Nil() *Statement {
	// notest
	s := Nil()
	g.items = append(g.items, s)
	return s
}

// Nil renders the nil identifier.
func (s *Statement) Nil() *Statement {
	// notest
	t := token{
		content: "nil",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Err renders the err identifier.
func Err() *Statement {
	// notest
	return newStatement().Err()
}

// Err renders the err identifier.
func (g *Group) Err() *Statement {
	// notest
	s := Err()
	g.items = append(g.items, s)
	return s
}

// Err renders the err identifier.
func (s *Statement) Err() *Statement {
	// notest
	t := token{
		content: "err",
		typ:     identifierToken,
	}
	*s = append(*s, t)
	return s
}

// Break renders the break keyword.
func Break() *Statement {
	// notest
	return newStatement().Break()
}

// Break renders the break keyword.
func (g *Group) Break() *Statement {
	// notest
	s := Break()
	g.items = append(g.items, s)
	return s
}

// Break renders the break keyword.
func (s *Statement) Break() *Statement {
	// notest
	t := token{
		content: "break",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Default renders the default keyword.
func Default() *Statement {
	// notest
	return newStatement().Default()
}

// Default renders the default keyword.
func (g *Group) Default() *Statement {
	// notest
	s := Default()
	g.items = append(g.items, s)
	return s
}

// Default renders the default keyword.
func (s *Statement) Default() *Statement {
	// notest
	t := token{
		content: "default",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Func renders the func keyword.
func Func() *Statement {
	// notest
	return newStatement().Func()
}

// Func renders the func keyword.
func (g *Group) Func() *Statement {
	// notest
	s := Func()
	g.items = append(g.items, s)
	return s
}

// Func renders the func keyword.
func (s *Statement) Func() *Statement {
	// notest
	t := token{
		content: "func",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Select renders the select keyword.
func Select() *Statement {
	// notest
	return newStatement().Select()
}

// Select renders the select keyword.
func (g *Group) Select() *Statement {
	// notest
	s := Select()
	g.items = append(g.items, s)
	return s
}

// Select renders the select keyword.
func (s *Statement) Select() *Statement {
	// notest
	t := token{
		content: "select",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Chan renders the chan keyword.
func Chan() *Statement {
	// notest
	return newStatement().Chan()
}

// Chan renders the chan keyword.
func (g *Group) Chan() *Statement {
	// notest
	s := Chan()
	g.items = append(g.items, s)
	return s
}

// Chan renders the chan keyword.
func (s *Statement) Chan() *Statement {
	// notest
	t := token{
		content: "chan",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Else renders the else keyword.
func Else() *Statement {
	// notest
	return newStatement().Else()
}

// Else renders the else keyword.
func (g *Group) Else() *Statement {
	// notest
	s := Else()
	g.items = append(g.items, s)
	return s
}

// Else renders the else keyword.
func (s *Statement) Else() *Statement {
	// notest
	t := token{
		content: "else",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Const renders the const keyword.
func Const() *Statement {
	// notest
	return newStatement().Const()
}

// Const renders the const keyword.
func (g *Group) Const() *Statement {
	// notest
	s := Const()
	g.items = append(g.items, s)
	return s
}

// Const renders the const keyword.
func (s *Statement) Const() *Statement {
	// notest
	t := token{
		content: "const",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Fallthrough renders the fallthrough keyword.
func Fallthrough() *Statement {
	// notest
	return newStatement().Fallthrough()
}

// Fallthrough renders the fallthrough keyword.
func (g *Group) Fallthrough() *Statement {
	// notest
	s := Fallthrough()
	g.items = append(g.items, s)
	return s
}

// Fallthrough renders the fallthrough keyword.
func (s *Statement) Fallthrough() *Statement {
	// notest
	t := token{
		content: "fallthrough",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Type renders the type keyword.
func Type() *Statement {
	// notest
	return newStatement().Type()
}

// Type renders the type keyword.
func (g *Group) Type() *Statement {
	// notest
	s := Type()
	g.items = append(g.items, s)
	return s
}

// Type renders the type keyword.
func (s *Statement) Type() *Statement {
	// notest
	t := token{
		content: "type",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Continue renders the continue keyword.
func Continue() *Statement {
	// notest
	return newStatement().Continue()
}

// Continue renders the continue keyword.
func (g *Group) Continue() *Statement {
	// notest
	s := Continue()
	g.items = append(g.items, s)
	return s
}

// Continue renders the continue keyword.
func (s *Statement) Continue() *Statement {
	// notest
	t := token{
		content: "continue",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Var renders the var keyword.
func Var() *Statement {
	// notest
	return newStatement().Var()
}

// Var renders the var keyword.
func (g *Group) Var() *Statement {
	// notest
	s := Var()
	g.items = append(g.items, s)
	return s
}

// Var renders the var keyword.
func (s *Statement) Var() *Statement {
	// notest
	t := token{
		content: "var",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Goto renders the goto keyword.
func Goto() *Statement {
	// notest
	return newStatement().Goto()
}

// Goto renders the goto keyword.
func (g *Group) Goto() *Statement {
	// notest
	s := Goto()
	g.items = append(g.items, s)
	return s
}

// Goto renders the goto keyword.
func (s *Statement) Goto() *Statement {
	// notest
	t := token{
		content: "goto",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Defer renders the defer keyword.
func Defer() *Statement {
	// notest
	return newStatement().Defer()
}

// Defer renders the defer keyword.
func (g *Group) Defer() *Statement {
	// notest
	s := Defer()
	g.items = append(g.items, s)
	return s
}

// Defer renders the defer keyword.
func (s *Statement) Defer() *Statement {
	// notest
	t := token{
		content: "defer",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Go renders the go keyword.
func Go() *Statement {
	// notest
	return newStatement().Go()
}

// Go renders the go keyword.
func (g *Group) Go() *Statement {
	// notest
	s := Go()
	g.items = append(g.items, s)
	return s
}

// Go renders the go keyword.
func (s *Statement) Go() *Statement {
	// notest
	t := token{
		content: "go",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}

// Range renders the range keyword.
func Range() *Statement {
	// notest
	return newStatement().Range()
}

// Range renders the range keyword.
func (g *Group) Range() *Statement {
	// notest
	s := Range()
	g.items = append(g.items, s)
	return s
}

// Range renders the range keyword.
func (s *Statement) Range() *Statement {
	// notest
	t := token{
		content: "range",
		typ:     keywordToken,
	}
	*s = append(*s, t)
	return s
}